CN219270083U - Efficient energy-saving vegetable cleaning machine - Google Patents

Abstract

The utility model provides a high-efficiency energy-saving vegetable cleaning machine, and relates to the technical field of vegetable cleaning. An energy efficient vegetable washer comprising: the cleaning assembly comprises a cleaning tank, a spraying mechanism, a conveying mechanism and a brushing mechanism, wherein the spraying mechanism is arranged at the mouth part of the cleaning tank, the conveying mechanism is arranged at the bottom of the cleaning tank, and the brushing mechanism is arranged on the cleaning tank; the energy-saving assembly comprises a turbidity sensor, a control module, a sewage sedimentation tank and a drain valve, wherein the sewage sedimentation tank is arranged on the cleaning tank, the turbidity sensor is arranged in the sewage sedimentation tank, the control module is arranged outside the cleaning tank, the drain valve is arranged at the bottom of the sewage sedimentation tank, the control module is connected with the turbidity sensor, and the drain valve is connected with the control module. The high-efficiency energy-saving vegetable washer can detect the turbidity of the water body of the clean vegetables in real time through the turbidity sensor, and when the turbidity of the water body reaches a preset value, the water source is closed, the waste of the water source is reduced, and the cleaning effect of the vegetables is improved.

Description

Efficient energy-saving vegetable cleaning machine

Technical Field

The utility model relates to the technical field of vegetable cleaning, in particular to a high-efficiency energy-saving vegetable cleaning machine.

Background

The rhizome vegetables mainly refer to vegetables with root or stem edible parts, such as carrots, potatoes, chinese yams and the like, and the edible parts of the vegetables are usually grown in soil, so that the surfaces of the freshly dug rhizome vegetables usually carry more soil, and the soil on the surfaces of the rhizome vegetables needs to be cleaned.

In the past, vegetable cleaning was performed manually, and under the condition of high labor cost, the operation of intensive labor of the manual labor is required to be automated, so that the industrial cost expenditure is reduced. At present, cleaning machines for automatically cleaning vegetables appear in the market, and sediment on the surfaces of the root vegetables is removed by washing the surfaces of the root vegetables, so that a large amount of water resources are required to be consumed, and the cleaning effect is poor.

Disclosure of Invention

The utility model aims to provide a high-efficiency energy-saving vegetable washer, which can detect the turbidity of a water body for cleaning vegetables in real time through a turbidity sensor, and close the water source when the turbidity of the water body reaches a preset value, so that the waste of the water source is reduced, and the cleaning effect of the vegetables is improved.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the embodiment of the application provides a high-efficient energy-saving vegetable washer, includes: the cleaning assembly comprises a cleaning tank, a spraying mechanism, a conveying mechanism and a brushing mechanism, wherein the spraying mechanism is arranged at the mouth part of the cleaning tank, the conveying mechanism is arranged at the bottom of the cleaning tank, and the brushing mechanism is arranged on the cleaning tank; the energy-saving assembly comprises a turbidity sensor, a control module, a sewage sedimentation tank and a drain valve, wherein the sewage sedimentation tank is arranged on the cleaning tank, the sewage sedimentation tank is positioned below the cleaning tank, the turbidity sensor is arranged in the sewage sedimentation tank, the control module is arranged outside the cleaning tank, the drain valve is arranged at the bottom of the sewage sedimentation tank, the control module is connected with the turbidity sensor, and the drain valve is connected with the control module.

In some embodiments of the present utility model, the conveying mechanism includes a driving part and supporting rods, the driving part is symmetrically disposed on two sides of the cleaning tank, any driving part includes sprockets symmetrically disposed on two ends of the cleaning tank and chains engaged with the sprockets, a feeding gap is formed between the two chains, two ends of the supporting rods are respectively connected with the two chains, the supporting rods are plural, and the plural supporting rods are disposed in the feeding gap at intervals.

In some embodiments of the utility model, a tensioning wheel is arranged between the two chain wheels, and the tensioning wheel is meshed with the chain wheels.

In some embodiments of the present utility model, the spraying mechanism includes a plurality of water pipes and a spray head, the plurality of water pipes are disposed at the top of the cleaning tank, the installation direction of the water pipes is parallel to the width direction of the cleaning tank, the spray head is disposed on the water pipes, and the output end of the spray head is aligned with the feeding gap.

In some embodiments of the present utility model, the brushing mechanism includes a cleaning roller and bristles, the cleaning roller is disposed in the cleaning tank, and the bristles are disposed on the cleaning roller.

In some embodiments of the present utility model, a guide hopper is disposed at one side of the cleaning tank, and an output end of the guide hopper is aligned with the feeding gap.

In some embodiments of the utility model, a discharging opening is arranged on one side of the cleaning tank, which is far away from the guide hopper, a door body is arranged on the discharging opening in a sliding manner, and a hydraulic pushing rod is arranged between the door body and the cleaning tank and is connected with the control module.

Compared with the prior art, the embodiment of the utility model has at least the following advantages or beneficial effects:

the embodiment of the application provides a high-efficient energy-saving vegetable washer, includes: the cleaning assembly comprises a cleaning tank, a spraying mechanism, a conveying mechanism and a brushing mechanism, wherein the spraying mechanism is arranged at the mouth part of the cleaning tank, the conveying mechanism is arranged at the bottom of the cleaning tank, and the brushing mechanism is arranged on the cleaning tank; the energy-saving assembly comprises a turbidity sensor, a control module, a sewage sedimentation tank and a drain valve, wherein the sewage sedimentation tank is arranged on the cleaning tank, the sewage sedimentation tank is positioned below the cleaning tank, the turbidity sensor is arranged in the sewage sedimentation tank, the control module is arranged outside the cleaning tank, the drain valve is arranged at the bottom of the sewage sedimentation tank, the control module is connected with the turbidity sensor, and the drain valve is connected with the control module.

The cleaning tank of the cleaning assembly is used for storing cleaning water of the rhizome vegetables, the spraying mechanism sprays water bodies to the water bodies to submerge the vegetables, and then the conveying mechanism is used for conveying the input vegetables in the cleaning tank, so that the stacking heights of the vegetables in the cleaning tank are basically consistent. The brushing mechanism is used for brushing sediment on the surfaces of vegetables, and the cleanliness of the surfaces of the vegetables can be improved through the cooperation of the spraying mechanism. The energy-saving assembly is used for monitoring the turbidity of the flowing-out cleaning water through the turbidity sensor, and when the turbidity of the flowing-out water reaches the cleaning standard for cleaning vegetables, the cleaning of the surfaces of the vegetables is finished, and the cleaned vegetables are taken out to finish cleaning.

Therefore, the high-efficiency energy-saving vegetable washer can detect the turbidity of the water body for cleaning vegetables in real time through the turbidity sensor, and when the turbidity of the water body reaches a preset value, the water source is closed, the waste of the water source is reduced, and the vegetable washing effect is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

fig. 2 is a partial enlarged view at a in fig. 1.

Icon: 1-cleaning a tank; 2-turbidity sensor; 3-a sewage sedimentation tank; 4-a drain valve; 5-supporting rods; 6-sprocket; 7-a chain; 8-tensioning wheel; 9-a water supply pipe; 10-an ejector head; 11-cleaning a roller; 12-brushing; 13-a guide hopper; 14-a discharge port; 15-door body; 16-hydraulic push rod.

Detailed Description

Examples

Referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of an embodiment of the present utility model; fig. 2 shows a partial enlarged view at a in fig. 1.

Referring to fig. 1, the present embodiment provides a high-efficiency energy-saving vegetable washer, which includes: the cleaning assembly comprises a cleaning tank 1, a spraying mechanism, a conveying mechanism and a brushing mechanism, wherein the spraying mechanism is arranged at the mouth part of the cleaning tank 1, the conveying mechanism is arranged at the bottom of the cleaning tank 1, and the brushing mechanism is arranged on the cleaning tank 1; the energy-saving assembly comprises a turbidity sensor 2, a control module, a sewage settling tank 3 and a drain valve 4, wherein the sewage settling tank 3 is arranged on the cleaning tank 1, the sewage settling tank 3 is positioned below the cleaning tank 1, the turbidity sensor 2 is arranged in the sewage settling tank 3, the control module is arranged outside the cleaning tank 1 and is connected with the turbidity sensor 2, the drain valve 4 is arranged at the bottom of the sewage settling tank 3, and the drain valve 4 is connected with the control module.

In this embodiment, the cleaning tank 1 of the cleaning assembly is used for storing the cleaning water of the root vegetables, and spraying the water body to the water body through the spraying mechanism to submerge the vegetables, and then the conveying mechanism is used for conveying the input vegetables in the cleaning tank 1, so that the stacking height of the vegetables in the cleaning tank 1 is basically consistent. The brushing mechanism is used for brushing sediment on the surfaces of vegetables, and the cleanliness of the surfaces of the vegetables can be improved through the cooperation of the spraying mechanism. The energy-saving assembly is used for monitoring the turbidity of the flowing-out cleaning water through the turbidity sensor 2, and when the turbidity of the flowing-out water reaches the cleaning standard for cleaning vegetables, the cleaning of the surfaces of the vegetables is finished, and the cleaned vegetables are taken out to finish cleaning.

The working principle of the turbidity sensor 2 sensor is as follows: when light passes through a certain amount of water, the amount of light penetration depends on the amount of dirt in the water. As the amount of dirt increases, the light penetrating the water sample decreases, and the turbidity sensor 2 measures the amount of light penetrating to calculate the turbidity of the washing water.

Referring to fig. 1, in some implementations of the present embodiment, the conveying mechanism includes a transmission member and a supporting rod 5, the transmission member is symmetrically disposed on two sides of the cleaning tank 1, any transmission member includes a sprocket 6 symmetrically disposed on two ends of the cleaning tank 1 and a chain 7 engaged with the sprocket 6, a feeding gap is formed between the two chains 7, two ends of the supporting rod 5 are respectively connected with the two chains 7, the supporting rods 5 are plural, and the plurality of supporting rods 5 are disposed in the feeding gap at intervals.

In this embodiment, the above-mentioned conveying mechanism is used for conveying the support bar 5 for supporting vegetables in the washing tub 1 by engagement of the gears and the chain 7, so that the vegetables can be transported in the washing tub 1. In the process of conveying vegetables, the conveyed vegetables are washed and scrubbed through the spraying mechanism and the scrubbing mechanism, and when the water body of the spraying mechanism continuously flows in, the vegetables can be submerged by rising the water surface in the cleaning tank 1, and the cleaning effect is better.

Referring to fig. 1, in some implementations of the present embodiment, a tensioning wheel 8 is disposed between the two sprockets 6, and the tensioning wheel 8 is engaged with the sprockets 6.

In this embodiment, the tensioning wheel 8 is used for tensioning the chain 7, so that the levelness of the transportation of the chain 7 can be improved, the transverse transportation of vegetables is facilitated, the backlog of the vegetables is avoided, and the vegetables are prevented from being damaged by stacking to form the surfaces of the vegetables.

Referring to fig. 1, in some implementations of the present embodiment, the spraying mechanism includes a plurality of water pipes 9 and a spray head 10, the plurality of water pipes 9 are disposed at the top of the cleaning tank 1, the installation direction of the water pipes 9 is parallel to the width direction of the cleaning tank 1, the spray head 10 is disposed on the water pipes 9, and the output end of the spray head 10 is aligned with the feeding gap.

In the present embodiment, the water supply pipe 9 is used to convey the water body above the mouth of the cleaning tank 1, and then convey the water body into the cleaning tank 1 through the plurality of jet heads 10 aligned with the feed gap.

Referring to fig. 1, in some implementations of the present embodiment, the brushing mechanism includes a cleaning roller 11 and bristles 12, the cleaning roller 11 is disposed in the cleaning tank 1, and the bristles 12 are disposed on the cleaning roller 11.

In this embodiment, the cleaning roller 11 is used for brushing vegetables on the supporting rod 5, and the cleaning roller 11 can also limit the height of the vegetables stacked on the supporting rod 5, so as to avoid the influence of high overload on the cleaning effect of the vegetables and the damage of the vegetables on the bottom layer. The bristles 12 are used to frictionally sweep the vegetable surface to remove silt.

Referring to fig. 1, in some implementations of the present embodiment, a guide hopper 13 is disposed at one side of the cleaning tank 1, and an output end of the guide hopper 13 is aligned with the feeding gap.

In this embodiment, the guide hopper 13 is used for guiding the vegetables when the vegetables are conveyed into the cleaning tank 1, so that the vegetables fall into the cleaning tank 1 more stably, and the vegetables are prevented from being damaged by severe impact.

Referring to fig. 1 and 2, in some implementations of the present embodiment, a discharge opening 14 is provided on a side of the cleaning tank 1 away from the guide hopper 13, a door body 15 is slidably provided on the discharge opening 14, a hydraulic pushing rod 16 is provided between the door body 15 and the cleaning tank 1, and the hydraulic pushing rod 16 is connected to the control module.

In this embodiment, the discharge opening 14 is used for transporting vegetables, which are far away from one end of the discharge opening 14, to the discharge opening 14 by the conveying mechanism after vegetable washing is completed. The hydraulic push rod is used for longitudinally pushing the door body 15 in a reciprocating manner, so that the opening and closing control of the discharge opening 14 is facilitated.

When the vegetable washing machine is used, vegetables are placed on the guide hopper 13, the vegetables slide onto the supporting rods 5 of the conveying mechanism under the action of gravity of the vegetable washing machine, the spraying mechanism and the conveying mechanism are driven at the moment, the conveying mechanism conveys the vegetables to one side of the washing tank 1, which is far away from the guide hopper 13, to stop, and when the water body of the spraying head 10 of the spraying mechanism is wholly submerged in the vegetables, the brushing mechanism is driven to rotate, the vegetables are brushed, and the water body is driven to vibrate so that sediment on the surfaces of the vegetables falls.

In summary, an embodiment of the present utility model provides a high-efficiency energy-saving vegetable washer, including: the cleaning assembly comprises a cleaning tank 1, a spraying mechanism, a conveying mechanism and a brushing mechanism, wherein the spraying mechanism is arranged at the mouth part of the cleaning tank 1, the conveying mechanism is arranged at the bottom of the cleaning tank 1, and the brushing mechanism is arranged on the cleaning tank 1; the energy-saving assembly comprises a turbidity sensor 2, a control module, a sewage settling tank 3 and a drain valve 4, wherein the sewage settling tank 3 is arranged on the cleaning tank 1, the sewage settling tank 3 is positioned below the cleaning tank 1, the turbidity sensor 2 is arranged in the sewage settling tank 3, the control module is arranged outside the cleaning tank 1 and is connected with the turbidity sensor 2, the drain valve 4 is arranged at the bottom of the sewage settling tank 3, and the drain valve 4 is connected with the control module. The cleaning tank 1 of the cleaning assembly is used for storing cleaning water of root vegetables, the spraying mechanism sprays water bodies to the water bodies to submerge the vegetables, and then the conveying mechanism is used for conveying the input vegetables in the cleaning tank 1, so that the stacking heights of the vegetables in the cleaning tank 1 are basically consistent. The brushing mechanism is used for brushing sediment on the surfaces of vegetables, and the cleanliness of the surfaces of the vegetables can be improved through the cooperation of the spraying mechanism. The energy-saving assembly is used for monitoring the turbidity of the flowing-out cleaning water through the turbidity sensor 2, and when the turbidity of the flowing-out water reaches the cleaning standard for cleaning vegetables, the cleaning of the surfaces of the vegetables is finished, and the cleaned vegetables are taken out to finish cleaning. Therefore, the high-efficiency energy-saving vegetable washer can detect the turbidity of the water body for cleaning vegetables in real time through the turbidity sensor 2, and when the turbidity of the water body reaches a preset value, the water source is closed, the waste of the water source is reduced, and the vegetable washing effect is improved.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. An efficient energy-saving vegetable washer, comprising:

the cleaning assembly comprises a cleaning tank, a spraying mechanism, a conveying mechanism and a brushing mechanism, wherein the spraying mechanism is arranged at the mouth part of the cleaning tank, the conveying mechanism is arranged at the bottom of the cleaning tank, and the brushing mechanism is arranged on the cleaning tank;

the energy-saving assembly comprises a turbidity sensor, a control module, a sewage sedimentation tank and a drain valve, wherein the sewage sedimentation tank is arranged on the cleaning tank, the sewage sedimentation tank is positioned below the cleaning tank, the turbidity sensor is arranged in the sewage sedimentation tank, the control module is arranged outside the cleaning tank, the control module is connected with the turbidity sensor, the drain valve is arranged at the bottom of the sewage sedimentation tank, and the drain valve is connected with the control module.

2. The efficient and energy-saving vegetable washing machine according to claim 1, wherein the conveying mechanism comprises a transmission part and a plurality of support rods, the transmission part is symmetrically arranged on two sides of the washing tank, any transmission part comprises chain wheels symmetrically arranged on two ends of the washing tank and chains meshed with the chain wheels, a feeding gap is formed between the two chains, two ends of the support rods are respectively connected with the two chains, and the plurality of support rods are arranged in the feeding gap at intervals.

3. The energy efficient vegetable washer of claim 2, wherein a tensioner is disposed between two of said sprockets, said tensioner engaging the sprockets.

4. The efficient and energy-saving vegetable washing machine as claimed in claim 2, wherein the spraying mechanism comprises a plurality of water supply pipes and a spray head, the water supply pipes are arranged at the top of the washing tank, the installation direction of the water supply pipes is parallel to the width direction of the washing tank, the spray head is arranged on the water supply pipes, and the output end of the spray head is aligned with the feeding gap.

5. The energy efficient vegetable washer of claim 1, wherein said brushing mechanism comprises a wash bowl and bristles, said wash bowl being disposed within said wash bowl, said bristles being disposed on said wash bowl.

6. The efficient and energy-saving vegetable washer of claim 2, wherein a guide hopper is provided on one side of the washing tub, and an output end of the guide hopper is aligned with the feeding gap.

7. The efficient and energy-saving vegetable washing machine of claim 6, wherein a discharge opening is formed in one side, away from the guide hopper, of the washing tank, a door body is slidably arranged on the discharge opening, a hydraulic pushing rod is arranged between the door body and the washing tank, and the hydraulic pushing rod is connected with the control module.

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